Department of Orthodontics, Guanghua School of Stomatology, Hospital of Stomatology, Guangdong Provincial Key Laboratory of Stomatology, Sun Yat-sen University, Guangzhou, China.
Orthod Craniofac Res. 2020 Aug;23(3):291-299. doi: 10.1111/ocr.12369. Epub 2020 Feb 20.
To simulate and compare salivary flow patterns over a tooth surface bonded with different orthodontic appliances using computational fluid dynamics (CFD) and investigate the impact of bracket design on salivary flow in relation to peri-bracket bacterial accumulation.
The models were constructed using computed tomography (CT) data of 81 patients scheduled for fixed orthodontic treatment: 27 patients (10 males, 17 females) for the metal Victory MBT™ bracket; 27 patients (seven males, 20 females) for the ceramic Clarity MBT™ bracket; 27 patients (15 males, 12 females) for the Mini Uni-Twin (MUT) bracket.
The salivary flow patterns were simulated by CFD and compared between the groups and the model predictions were validated using a bacteriological experiment.
The MUT bracket was associated with the greatest number of low salivary velocity areas, as it is designed with a connector between double tie wings and a right contact angle between tooth surface and bracket base. After archwire placement, the centred slot in the bracket and the bilateral sites around the bracket had higher bacterial retention and needed special oral hygiene measures. The obtuse contact angle of the ceramic bracket formed a pocket structure in the tie-wing area, retarding salivary flow and contributing to bacteria retention.
With the evaluation of CFD models, we demonstrate that salivary flow patterns over a tooth surface with a bracket vary with bracket designs and further promote bacterial retention in specific locations, suggesting the need for additional oral hygiene measures for specific bracket types.
使用计算流体动力学(CFD)模拟和比较不同正畸矫治器粘结在牙齿表面时的唾液流模式,并研究托槽设计对唾液流的影响以及与托槽周围细菌积聚的关系。
使用 81 名计划接受固定正畸治疗患者的计算机断层扫描(CT)数据构建模型:27 名患者(10 名男性,17 名女性)使用金属 Victory MBT™托槽;27 名患者(7 名男性,20 名女性)使用陶瓷 Clarity MBT™托槽;27 名患者(15 名男性,12 名女性)使用 Mini Uni-Twin(MUT)托槽。
通过 CFD 模拟唾液流模式,并在组间进行比较,并使用细菌学实验验证模型预测。
MUT 托槽与最多的低唾液速度区域相关,因为它在双结扎翼之间设计有一个连接,并且在牙齿表面和托槽基底之间形成一个右接触角。弓丝放置后,托槽的中心槽和托槽周围的双侧部位细菌滞留率较高,需要特殊的口腔卫生措施。陶瓷托槽的钝角接触角在结扎翼区域形成一个口袋结构,阻碍唾液流动并导致细菌滞留。
通过 CFD 模型评估,我们证明了托槽粘结在牙齿表面时的唾液流模式因托槽设计而异,并进一步促进了特定部位的细菌滞留,这表明需要针对特定托槽类型采取额外的口腔卫生措施。
